#!/usr/bin/python3 # -*- coding: utf-8 -*- from MainWindow import Ui_DataNodeFrequencyTest from PyQt5.QtWidgets import QApplication, QMainWindow, QMessageBox from AFG3000 import * from Prologix import * from DN101_NFC import * from DN101_ZIGBEE import * from Mysql import * import serial, threading import serial.tools.list_ports from PyQt5.QtCore import QTimer, QThread, pyqtSignal from PyQt5.QtGui import QIcon from PyQt5.QtWidgets import * import numpy as np import matplotlib import time from sqlalchemy import create_engine import pandas as pd import tkinter as tk from tkinter import filedialog from playsound import playsound matplotlib.use("Qt5Agg") from matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas from matplotlib.figure import Figure import matplotlib.pyplot as plt plt.rcParams['font.sans-serif'] = ['SimHei'] # 指定默认字体 plt.rcParams['axes.unicode_minus'] = False # 解决保存图像是负号'-'显示为方块的问题 from matplotlib.backends.backend_qt5agg import NavigationToolbar2QT as NavigationToolbar import win32con #from win32process import SuspendThread, ResumeThread import ctypes cfp = configparser.ConfigParser() cfp.read("config.ini") SENSER_INF_PACK1 = 0x01 SENSER_INF_PACK2 = 0x07 EVEL_DATA_PACK1 = 0x02 EVEL_DATA_PACK2 = 0x06 WAVE_X_PACK = 0x03 WAVE_Y_PACK = 0x04 WAVE_Z_PACK = 0x05 NFC_PORT_STR = 'Silicon Labs Dual CP210x USB to UART Bridge: Enhanced COM Port' ZIG_PORT_STR = 'Silicon Labs Dual CP210x USB to UART Bridge: Standard COM Port' AFG = AFG3000() #DMM = DMM_34401A(addr=22, port="COM12", baud=115200, ser_timeout=3, timeout=2) db = Mysql() Stop = 0 sensorType = -1 #vol = { # "160Hz":1.575, # "320Hz":1.000, # "640Hz":1.000, # "1000Hz":2.620, # "2000Hz":2.9, # "3000Hz":2.7, # "4000Hz":1.82, # "5000Hz":1.33, # "6000Hz":0.66 #} class Thread_01(QThread): # 线程1 trigger = pyqtSignal(str) Voltage = pyqtSignal(str) AmplSig = pyqtSignal(str) TestOK = pyqtSignal(list) ThreadStop = pyqtSignal() TimeOut = pyqtSignal() def __init__(self, Fredata,vol): super().__init__() self.Fredata = Fredata self.vol = vol handle = -1 def run(self): try: self.handle = ctypes.windll.kernel32.OpenThread( win32con.PROCESS_ALL_ACCESS, False, int(QThread.currentThreadId())) except Exception as e: print('get thread handle failed', e) global StopThread for i in range(0, len(self.Fredata)): print(self.Fredata[i]['Frequency']) a = [] a.append('0') a.append(str(self.Fredata[i]['Frequency'])) a.append('0') self.TestOK.emit(a) ampl = 0.02 ampl_ins = 0.02 AFG.SetAmpl(ampl) AFG.SetFrequency(str(self.Fredata[i]['Frequency'])) self.trigger.emit(str(self.Fredata[i]['Frequency'])) #Voltage = str(DMM.measure()) Voltage = (AFG.measure()) Voltage = str(round(Voltage, 2)) self.Voltage.emit(Voltage) retAmpl = AFG.query('VOLTAGE:AMPLITUDE?') retAmpl = round(retAmpl,2) self.AmplSig.emit(str(retAmpl)) AFG.Open() time.sleep(1) current_freq = self.Fredata[i]['Frequency'] ampl_set = float(self.vol[current_freq]) while(ampl 0.07:#微调ampl到最低值20mv retAmpl -= 0.05 #print(retAmpl) AFG.SetAmpl(retAmpl) # retAmpl = AFG.query('VOLTAGE:AMPLITUDE?') retAmpl = AFG.query(':SOUR1:VOLT?') time.sleep(0.05) #print(retAmpl) time.sleep(1) AFG.Close() ampl = 0.02 AFG.SetAmpl(ampl) AFG.SetFrequency('80') AFG.Close() self.ThreadStop.emit() class MyFigureCanvas(FigureCanvas): def __init__(self): self.fig = Figure() FigureCanvas.__init__(self, self.fig) self.axes = self.fig.add_subplot(111) #self.axes.set_ylim(ymin=0, ymax=30) def plot(self, data,shortAddr): self.axes.cla() x = [] y1 = [] y2 = [] data1 = float(data[0]['rmsValue_Z']) * 1.41 for i in range(len(data)): y1.append(float(data[i]['rmsValue_Z'])) x.append(data[i]['Frequency']) y2.append(data1) self.axes.plot(x, y1) data1 = float(data[0]['rmsValue_Z']) * 1.41 self.axes.plot(x, y2) self.axes.set_title('传感器短地址' + shortAddr) self.axes.set_xlabel('Frequency(Hz)') self.axes.set_ylabel('RMS(m/s^2)') self.fig.subplots_adjust(left=0.15, bottom=0.2) self.axes.grid() self.fig.canvas.draw_idle() now_time = datetime.datetime.now() time_str = now_time.strftime('%Y-%m-%d') strPath = os.getcwd() path = strPath + '\\{0}\\{1}.png'.format(time_str,shortAddr) #if os.path.exists(path): self.fig.savefig(path) def clear(self): self.axes.cla() self.axes.grid() self.fig.canvas.draw_idle() class DataNodeFrequencyTest(QMainWindow, Ui_DataNodeFrequencyTest): def __init__(self): super(DataNodeFrequencyTest, self).__init__() self.setupUi(self) self.setWindowTitle("凯奥思无线传感器频响测试") self.NFCRead_Btn.clicked.connect(self.NFCRead) self.Test_Btn.clicked.connect(self.StartTest) self.ConnecDev_Btn.clicked.connect(self.ConnectDev) #self.Export_Btn.clicked.connect(self.Export2Excel) self.timer_zig = QTimer(self) self.timer_zig.timeout.connect(self.zig_update) #self.timer_multimeter = QTimer(self) #self.timer_multimeter.timeout.connect(self.multimeter_update) self.timer_single = QTimer(self) self.timer_nfc = QTimer(self) self.Init() self.vol = {} def Init(self): self.start = 0 self.Test = 0 self.Next = 0 self.TestOK = '0' self.Fre = 0 self.Vol = '0' # self.AFG3000 = AFG3000() self.port_list = AFG.init() ip = cfp.get("DB", "IP") # for i in range(0, len(self.port_list)): # self.Signal_Box.addItem(self.port_list[i]) # print(self.port_list) #self.AUDIO_PATH = self.get_resources_path(os.path.join('res', 'Finish.mp3')) #playsound(self.AUDIO_PATH) self.port_list_multimeter = list(serial.tools.list_ports.comports()) for i in range(0, len(self.port_list_multimeter)): self.multimeter_Box.addItem(self.port_list_multimeter[i].device) self.sensorType_Box.addItem('mems无线传感器') self.sensorType_Box.addItem('压电无线传感器') thistime = time.strftime("%Y-%m-%d", time.localtime()) sql = "select count(*) from t_data_nfc" data = db._Query(sql) self.TotalCount.setText(str(data[0]['count(*)'])) sql = "select count(*) from t_data_nfc where TIME LIKE \'%{0}%\'".format(thistime) data = db._Query(sql) self.Count_Edit.setText(str(data[0]['count(*)'])) self.Signal_Edit.setText(cfp.get("Device", "deviceSignal")) self.plot = MyFigureCanvas() self.gridlayout = QGridLayout(self.groupBox_3) # 继承容器groupBox self.toolbar = NavigationToolbar(self.plot, self) self.gridlayout.addWidget(self.toolbar, 0, 0) self.gridlayout.addWidget(self.plot, 1, 0) self.show() data = [] # sql = "select rmsValue_Z,speedValue_Z, Frequency from t_data_zigbee where shortAddr = '450'" # data = db._Query(sql) # self.plot.plot(data, '450') self.plot.clear() def get_resources_path(self,relative_path): if getattr(sys, 'frozen', False): base_path = sys._MEIPASS else: base_path = os.path.abspath('.') return os.path.join(base_path, relative_path) def Export2Excel(self): root = tk.Tk() root.withdraw() Filepath = filedialog.askdirectory() # 获得选择好的文件 engine = create_engine('mysql+pymysql://root:root@192.168.1.75:3306/datanodedb') sql = 'SELECT * FROM t_data_zigbee' df_read = pd.read_sql_query(sql, engine) Filepath = Filepath + '/data.xlsx' print(Filepath) df_read.to_excel(Filepath, index=False) QMessageBox.warning(self, "标题", "导出成功", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) def ConnectDev(self): if self.start != 0: #self.Result_edit.clear() self.start = 0 AFG.Close() #self.Result_edit.append('信号发生器断开成功!') #DMM.Close() #self.Result_edit.append('万用表断开成功!') self.nfc_ser.close() #self.Result_edit.append('NFC模块断开成功!') self.zig_ser.close() #self.Result_edit.append('ZigBee模块断开成功!') return None elif self.start == 0: self.ConnecDev_Btn.setEnabled(False) self.NFCRead_Btn.setEnabled(False) self.Test_Btn.setEnabled(False) try: # 连接信号发生器 QApplication.processEvents() #self.Result_edit.clear() #print(self.port_list[self.Signal_Box.currentIndex()]) # self.AFG3000.Open(self.port_list[self.Signal_Box.currentIndex()]) if self.sensorType_Box.currentText() == 'mems无线传感器': sensorType = 0 self.Fredata = db._Query('select * from t_data_frequency WHERE sensorType = 0 order by Frequency;') elif self.sensorType_Box.currentText() == '压电无线传感器': sensorType = 1 self.Fredata = db._Query('select * from t_data_frequency order by Frequency;') self.tabWidget.setCurrentIndex(2) self.NFCList = self.tabWidget.widget(2) layoutNFC = QVBoxLayout() layoutNFC.addWidget(QLabel('频点列表(Hz)')) for i in range(0, len(self.Fredata)): layoutNFC.addWidget(QLabel(str(self.Fredata[i]['Frequency']))) print(self.Fredata[i]['Frequency']) self.vol[self.Fredata[i]['Frequency']] = cfp.get("Frequency", str(self.Fredata[i]['Frequency'])) layoutNFC.addStretch(1) self.NFCList.setLayout(layoutNFC) cfp.set("Device", "deviceSignal",self.Signal_Edit.text()) #cfp.set("Device", "deviceMultimeter", self.multimeter_Box.currentText()) signal = cfp.get("Device", "deviceSignal") multimeter = cfp.get("Device", "deviceMultimeter") #multimeter = 'USB0::0x2A8D::0xB318::MY62200139::0::INSTR' AFG.Connect(signal) self.TestStatus.setText('信号发生器联机成功!') #self.Result_edit.append('信号发生器联机成功!') # 连接万用表 # DMM = DMM_34401A(addr=22, port="COM8", baud=115200, ser_timeout=3, timeout=2) # self.DMM = DMM_34401A(addr=22, port=self.port_list_multimeter[self.multimeter_Box.currentIndex()].name, \ # baud=115200, timeout=5) #print(DMM.cmdPoll("DETector:BANDwidth?")) #DMM.set_measure_voltage_ac() # self.timer_multimeter.start(200) # 启动串口接收分析数据 AFG.ConnectMultimeter(multimeter) AFG.SetAC() #self.Result_edit.append('万用表联机成功!') self.TestStatus.setText('万用表联机成功!') nfc_port, zig_port = self.get_nfc_zig_port() print(nfc_port, zig_port) self.nfc_ser = serial.Serial(nfc_port, 19200, rtscts=False, dsrdtr=False) self.zig_ser = serial.Serial(zig_port, 115200, rtscts=False, dsrdtr=False) self.nfc_reader = Nfc_Reader(self.nfc_ser) self.zig_reader = Zig_Reader(self.zig_ser) self.timer_zig.start(100) # 启动串口接收分析数据 self.nfc_reader.rfidm_c2_init() #self.Result_edit.append('NFC、ZigBee模块联机成功!') self.TestStatus.setText('NFC、ZigBee模块联机成功!') self.ConnecDev_Btn.setEnabled(True) self.ConnecDev_Btn.setText('断开') self.NFCRead_Btn.setEnabled(True) self.TestStatus.setText('联机成功!') self.start = 1 thistime = time.strftime("%Y-%m-%d", time.localtime()) sql = "select count(*) from t_data_nfc where TIME LIKE \'%{0}%\'".format(thistime) data = db._Query(sql) self.Count_Edit.setText(str(data[0]['count(*)'])) if data[0]['count(*)'] < 10 : self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(106, 168, 79);") self.encourage_label.setText('今天是新的一天,加油!') if data[0]['count(*)'] > 10 : self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(255, 0, 0);") self.encourage_label.setText('再接再厉!') except Exception: QMessageBox.warning(self, "标题", "连接失败", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) self.ConnecDev_Btn.setEnabled(True) self.start = 0 return -1 def StartTest(self): # self.thread_01 = Thread_01() # 创建线程 # self.thread_01.start() # 开始线程 # return 0 try: if self.Test != 0: self.Test = 0 ret = ctypes.windll.kernel32.TerminateThread(self.thread_01.handle, 0) AFG.SetAmpl(0.02) AFG.SetFrequency('80') AFG.Close() self.Test_Btn.setText('开始测试') self.TestStatus.setText('测试结束') return 0 elif self.Test == 0: self.Test = 1 #AFG.Open() thistime = time.strftime("%Y-%m-%d", time.localtime()) sql = "select count(*) from t_data_nfc where TIME LIKE \'%{0}%\'".format(thistime) data = db._Query(sql) self.Count_Edit.setText(str(data[0]['count(*)'])) if data[0]['count(*)'] < 10: self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(106, 168, 79);") self.encourage_label.setText('今天是新的一天,加油!') if data[0]['count(*)'] > 10: self.encourage_label.setStyleSheet("font: 75 20pt \"微软雅黑\";\n" "color: rgb(255, 0, 0);") self.encourage_label.setText('再接再厉!') self.TestStatus.setText('正在测试中……') self.ConnecDev_Btn.setEnabled(False) self.NFCRead_Btn.setEnabled(False) self.Test_Btn.setText('停止测试') self.plot.clear() self.thread_01 = Thread_01(self.Fredata,self.vol) # 创建线程 self.thread_01.trigger.connect(self.deal) self.thread_01.Voltage.connect(self.VoltageFun) self.thread_01.TestOK.connect(self.TestOKFun) self.thread_01.AmplSig.connect(self.AmplFun) self.thread_01.ThreadStop.connect(self.ThreadStop) self.thread_01.TimeOut.connect(self.TimeOut) self.thread_01.start() # 开始线程 return 0 except Exception: QMessageBox.warning(self, "标题", "测试异常", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) return -1 # self.AFG3000.SetFrequency('8k') # self.AFG3000.query('FREQUENCY?'); def AmplFun(self,updateampl): updateampl = float(updateampl)*1000 self.Ampl_Edit.setText(str(updateampl)) def deal(self, updatestr): self.encourage_label.setText('') self.Frequency_Edit.setText(updatestr) def VoltageFun(self, updateVoltage): self.VOLTage_Edit.setText(updateVoltage) def ThreadStop(self): self.Test = 0 self.TestStatus.setText('测试结束') self.Test_Btn.setText('开始测试') self.NFCRead_Btn.setEnabled(True) self.Ampl_Edit.setText('20') self.Frequency_Edit.setText('80') sql = "select rmsValue_Z,speedValue_Z, Frequency from t_data_zigbee where shortAddr = '{0}' order by Frequency".format( self.ShortAddr) data = db._Query(sql) self.plot.plot(data,self.ShortAddr) self.Test_Btn.setEnabled(False) thistime = time.strftime("%Y-%m-%d", time.localtime()) sql = "select count(*) from t_data_nfc" data = db._Query(sql) self.TotalCount.setText(str(data[0]['count(*)'])) sql = "select count(*) from t_data_nfc where TIME LIKE \'%{0}%\'".format(thistime) data = db._Query(sql) self.Count_Edit.setText(str(data[0]['count(*)'])) if 10 < data[0]['count(*)'] < 50: self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(255, 0, 0);") self.encourage_label.setText('再接再厉!') elif 50 < data[0]['count(*)'] < 100: self.encourage_label.setStyleSheet("font: 75 20pt \"微软雅黑\";\n" "color: rgb(255, 0, 0);") self.encourage_label.setText('GOOD') elif 100 < data[0]['count(*)'] < 110: self.encourage_label.setStyleSheet("font: 75 30pt \"微软雅黑\";\n" "color: rgb(255, 0, 0);") self.encourage_label.setText('GREAT') elif data[0]['count(*)'] > 110 : self.encourage_label.setStyleSheet("font: 75 35pt \"微软雅黑\";\n" "color: rgb(255, 255, 0);") self.encourage_label.setText('UNBELIEVABLE') def TimeOut(self): self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(0, 0, 0);") self.encourage_label.setText('超时了') Stop = 1 # self.Test = 0 # ret = ctypes.windll.kernel32.TerminateThread(self.thread_01.handle, 0) # # AFG.SetAmpl(0.02) # AFG.SetFrequency('80') # AFG.Close() # self.Test_Btn.setText('开始测试') # self.TestStatus.setText('测试结束') # QMessageBox.warning(self, "标题", "ZigBee接收超时,请重新测试!", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) def TestOKFun(self, updateTest): print(updateTest) self.TestOK = updateTest[0] print(self.TestOK) self.Fre = updateTest[1] self.Vol = updateTest[2] def get_nfc_zig_port(self): serial_ports = self.get_serial_list() for port in serial_ports: port = list(port) print(port) if NFC_PORT_STR in port[1]: nfc_port = port[0] elif ZIG_PORT_STR in port[1]: zig_port = port[0] return (nfc_port, zig_port) def get_serial_list(self): serial_ports = serial.tools.list_ports.comports() serial_list = [] for port in serial_ports: serial_list.append(list(port)) return serial_list #def multimeter_update(self): #VOLTage = self.DMM.measure() #print(VOLTage) #self.VOLTage_Edit.setText(VOLTage) def zig_update(self): msg = "" zig_info = self.zig_reader.read() # 将解析的设备信息和特征值输出到界面上 if zig_info == SENSER_INF_PACK2: for k, i in self.zig_reader.dev_info_msg.items(): msg = msg + k + ":" + str(i) + "\n" for k, i in self.zig_reader.dev_conf_msg.items(): msg = msg + k + ":" + str(i) + "\n" self.zig_conf_recv_flag = True elif (zig_info == EVEL_DATA_PACK1) | (zig_info == EVEL_DATA_PACK2): for k, i in self.zig_reader.dev_evel_msg.items(): # print(k, " :", i) if isinstance(i, float): msg = msg + k + ":" + format(i, ".4f") + "\n" else: msg = msg + k + ":" + str(i) + "\n" if zig_info: self.ZigBee_Edit.setText(msg) #zig_recv_file_name = self.zig_reader.dev_evel_msg['采集时间'][:10]+".txt" #with open(zig_recv_file_name, "a") as zig_recv_file: # zig_recv_file.write(msg) # zig_recv_file.write(str(self.Fre)) # zig_recv_file.write(self.Vol) # zig_recv_file.write("\n\n") global Stop try: #print(self.TestOK,len(msg),self.zig_reader.dev_evel_msg['传感器地址'] ) if int(self.TestOK) == 1 and (len(msg) > 0) and self.ShortAddr == self.zig_reader.dev_evel_msg['传感器地址']: self.Next = 1 self.TestOK = '0' print("OK1") self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(0, 0, 0);") self.encourage_label.setText('第一次收到Zigbee信息') return if (int(self.Next) == 1) and (len(msg) > 0) and self.ShortAddr == self.zig_reader.dev_evel_msg['传感器地址']: print("OK2") self.encourage_label.setStyleSheet("font: 75 15pt \"微软雅黑\";\n" "color: rgb(0, 0, 0);") self.encourage_label.setText('第二次收到Zigbee信息') Stop = 1 self.Next = 0 sql = "select count(*) from t_data_zigbee where shortAddr = '{0}' and Frequency = '{1}';".format( self.zig_reader.dev_evel_msg['传感器地址'],self.Fre) data = db._Query(sql) print(data[0]['count(*)']) if data[0]['count(*)'] > 0: sql = "update t_data_zigbee set sampleTime = '{0}',deviceTem = '{1}',\ environmentTem = '{2}',angle = '{3}',batteryV = '{4}',\ rmsPK_X = '{5}',rmsValue_X = '{6}',speedValue_X = '{7}',speedValue_X = '{8}',\ rmsPK_Y = '{9}',rmsValue_Y = '{10}',speedPK_Y = '{11}',speedValue_Y = '{12}',\ rmsPK_Z = '{13}',rmsValue_Z = '{14}',speedPK_Z = '{15}',speedValue_Z = '{16}',\ VOLTage = '{17}' \ where shortAddr = '{18}' and Frequency = {19};".format(self.zig_reader.dev_evel_msg['采集时间'], self.zig_reader.dev_evel_msg['设备温度'], self.zig_reader.dev_evel_msg['环境温度'], self.zig_reader.dev_evel_msg['倾角'], self.zig_reader.dev_evel_msg['电池电压'], self.zig_reader.dev_evel_msg['X轴峰值'], self.zig_reader.dev_evel_msg['X轴有效值'], self.zig_reader.dev_evel_msg['X轴速度峰值'], self.zig_reader.dev_evel_msg['X轴速度有效值'], self.zig_reader.dev_evel_msg['Y轴峰值'], self.zig_reader.dev_evel_msg['Y轴有效值'], self.zig_reader.dev_evel_msg['Y轴速度峰值'], self.zig_reader.dev_evel_msg['Y轴速度有效值'], self.zig_reader.dev_evel_msg['Z轴峰值'], self.zig_reader.dev_evel_msg['Z轴有效值'], self.zig_reader.dev_evel_msg['Z轴速度峰值'], self.zig_reader.dev_evel_msg['Z轴速度有效值'],self.Vol, self.zig_reader.dev_evel_msg['传感器地址'],self.Fre) print(sql) data = db._Operate(sql) else: sql = "insert into t_data_zigbee(shortAddr,sampleTime,deviceTem,environmentTem,angle,batteryV,\ rmsPK_X,rmsValue_X,speedPK_X,speedValue_X,rmsPK_Y,rmsValue_Y,speedPK_Y,speedValue_Y,rmsPK_Z,\ rmsValue_Z,speedPK_Z,speedValue_Z,Frequency,VOLTage) values('{0}','{1}','{2}','{3}','{4}','{5}',\ '{6}','{7}','{8}','{9}','{10}','{11}','{12}','{13}','{14}','{15}','{16}','{17}',{18},'{19}'\ )".format(self.zig_reader.dev_evel_msg['传感器地址'], self.zig_reader.dev_evel_msg['采集时间'], self.zig_reader.dev_evel_msg['设备温度'], self.zig_reader.dev_evel_msg['环境温度'], self.zig_reader.dev_evel_msg['倾角'], self.zig_reader.dev_evel_msg['电池电压'], self.zig_reader.dev_evel_msg['X轴峰值'], self.zig_reader.dev_evel_msg['X轴有效值'], self.zig_reader.dev_evel_msg['X轴速度峰值'], self.zig_reader.dev_evel_msg['X轴速度有效值'], self.zig_reader.dev_evel_msg['Y轴峰值'], self.zig_reader.dev_evel_msg['Y轴有效值'], self.zig_reader.dev_evel_msg['Y轴速度峰值'], self.zig_reader.dev_evel_msg['Y轴速度有效值'], self.zig_reader.dev_evel_msg['Z轴峰值'], self.zig_reader.dev_evel_msg['Z轴有效值'], self.zig_reader.dev_evel_msg['Z轴速度峰值'], self.zig_reader.dev_evel_msg['Z轴速度有效值'],self.Fre,self.Vol) #print(sql) data = db._Operate(sql) self.TestOK = '0' self.plot.clear() sql = "select rmsValue_Z,speedValue_Z, Frequency from t_data_zigbee where shortAddr = '{0}' order by Frequency".format( self.ShortAddr) data = db._Query(sql) self.plot.plot(data, self.ShortAddr) except Exception: QMessageBox.warning(self, "标题", "数据存储异常", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) return -1 def nfc_update(self): msg = '' for k, i in self.nfc_reader.dev_info_msg.items(): msg = msg + k + ":" + str(i) + "\n" for k, i in self.nfc_reader.dev_conf_msg.items(): msg = msg + k + ":" + str(i) + "\n" thistime = time.strftime("%Y-%m-%d %H:%M:%S ", time.localtime()) sql = "select count(*) from t_data_nfc where shortAddr = '{0}';".format( self.nfc_reader.dev_conf_msg['Zigbee 本地地址']) self.ShortAddr = self.nfc_reader.dev_conf_msg['Zigbee 本地地址'] data = db._Query(sql) print(data[0]['count(*)']) if data[0]['count(*)'] > 0: sql = "update t_data_nfc set dataNodeName = '{0}',dataNodeNo = '{1}',\ hardWareVersion = '{2}',softVersion = '{3}',productNo = '{4}',\ productSN = '{5}',productType = '{6}',RSSI = '{7}',\ firstPowerTime = '{8}',TIME = '{9}',batteryV = '{10}'\ where shortAddr = '{11}';".format(self.nfc_reader.dev_info_msg['测点名称'], self.nfc_reader.dev_info_msg['MAC地址'], \ self.nfc_reader.dev_info_msg['硬件版本'], self.nfc_reader.dev_info_msg['软件版本'], \ self.nfc_reader.dev_info_msg['生产批号'], self.nfc_reader.dev_info_msg['生产序列号'], \ self.nfc_reader.dev_info_msg['产品型号'], self.nfc_reader.dev_info_msg['无线信号强度'], \ self.nfc_reader.dev_info_msg['首次上电日期'], thistime, \ self.nfc_reader.dev_info_msg['电池电压'], self.nfc_reader.dev_conf_msg['Zigbee 本地地址']) #print(sql) data = db._Operate(sql); else: sql = "insert into t_data_nfc(dataNodeName,dataNodeNo,shortAddr,hardWareVersion,softVersion,productNo,\ productType,RSSI,productSN,firstPowerTime,batteryV,TIME) values('{0}','{1}','{2}','{3}','{4}','{5}',\ '{6}','{7}','{8}','{9}','{10}','{11}')".format(self.nfc_reader.dev_info_msg['测点名称'], self.nfc_reader.dev_info_msg['MAC地址'], \ self.nfc_reader.dev_conf_msg['Zigbee 本地地址'], self.nfc_reader.dev_info_msg['硬件版本'], \ self.nfc_reader.dev_info_msg['软件版本'], self.nfc_reader.dev_info_msg['生产批号'], \ self.nfc_reader.dev_info_msg['产品型号'], self.nfc_reader.dev_info_msg['无线信号强度'], \ self.nfc_reader.dev_info_msg['生产序列号'], self.nfc_reader.dev_info_msg['首次上电日期'], \ self.nfc_reader.dev_info_msg['电池电压'], thistime) #print(sql) data = db._Operate(sql) self.NFC_Edit.setText(msg) self.tabWidget.setCurrentIndex(1) def NFCRead(self): try: self.Test_Btn.setEnabled(True) #self.Result_edit.clear() self.tabWidget.setCurrentIndex(0) QApplication.processEvents() self.nfc_reader.get_uuid() if self.nfc_reader.nfc_uuid: #self.Result_edit.append("DN101 NFC UUID:" + hex(self.nfc_reader.nfc_uuid)[2:]) time.sleep(0.5) info = self.nfc_reader.read_info() conf = self.nfc_reader.read_conf() if info & conf: self.nfc_reader.dev_info_analysis() self.nfc_reader.dev_conf_analysis() self.nfc_update() self.TestStatus.setText('NFC读取成功!') #self.Result_edit.append("DN101 NFC读取成功") return info else: #self.Result_edit.append("NFC读取失败") return False else: #self.Result_edit.append("NFC读取失败") return False except Exception: QMessageBox.warning(self, "标题", "测试异常", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) return -1 if __name__ == '__main__': app = QApplication(sys.argv) MainWindow = QMainWindow() ui = Ui_DataNodeFrequencyTest() ui.setupUi(MainWindow) View = DataNodeFrequencyTest() View.show() sys.exit(app.exec_())